A team of researchers led by the Department of Energy's Oak Ridge National
Laboratory used neutron macromolecular crystallography to investigate the different states of three glaucoma drugs as they interact with the targeted enzyme, human carbonic anhydrase II (hCA II).
Not exact matches
At the US government's Los Alamos National
Laboratory in New Mexico, researchers are generating
neutrons with a particle accelerator and
using them to transmute long - lived radioactive elements.
The first step in understanding a material's crystallographic structure is bombarding a sample of the material with electrons, photons or other subatomic particles,
using technology such as the Spallation
Neutron Source at ORNL or the Advanced Photon Source at Argonne National
Laboratory.
They conducted two kinds of diffraction studies:
neutron scattering experiments at the Los Alamos Neutron Science Center (LANSCE) at DOE's Los Alamos National Laboratory, and electron diffraction experiments using a transmission electron microscope at Brookhav
neutron scattering experiments at the Los Alamos
Neutron Science Center (LANSCE) at DOE's Los Alamos National Laboratory, and electron diffraction experiments using a transmission electron microscope at Brookhav
Neutron Science Center (LANSCE) at DOE's Los Alamos National
Laboratory, and electron diffraction experiments
using a transmission electron microscope at Brookhaven Lab.
Narek Gharibyan (Lawrence Livermore National
Laboratory in California): NIF is a wonderful source of
neutrons that we can
use to do basic science measurements.
In order to validate their results from DIC, the team collaborated with Los Alamos National
Laboratory (LANL) to perform residual stress tests
using a method known as
neutron diffraction (ND).
A team of scientists at the Department of Energy's Oak Ridge National
Laboratory explored the fundamental physics of the world's best thermoelectric material — tin selenide —
using neutron scattering and computer simulations.
It resides in membrane spaces that evade ready experimental detection, but in a new study, researchers at the Georgia Institute of Technology and Oak Ridge National
Laboratory (ORNL) have illuminated presenilin
using a
neutron beam produced by the world's most powerful research nuclear reactor.
To improve models for drilling, hydraulic fracturing and underground storage of carbon dioxide, Oak Ridge National
Laboratory scientists
used neutrons to understand how water flows through fractured rock.
In collaboration with physicists from the University of Wisconsin and Oak Ridge National
Laboratory (ORNL) in the U.S., Yethiraj and graduate student Swomitra Palit demonstrated that
neutron beams can indeed be
used to obtain independent size measurements of polymers in crowded solutions.
Paige Kelley, a postdoctoral researcher with a joint appointment at the University of Tennessee and the Department of Energy's (DOE's) Oak Ridge National
Laboratory (ORNL), is
using neutrons to study specific crystal properties that could lead to the realization of a quantum spin liquid, a novel state of matter that may form the basis of future quantum computing technologies.
A research team including Georgia Institute of Technology professor Martin Mourigal
used neutron scattering at Oak Ridge National
Laboratory to study copper elpasolite, a...
The research team — including Anibal Ramirez - Cuesta, Luke Daemen, and Yongqiang Cheng of Oak Ridge National
Laboratory, as well as Timothy Jenkins and Craig Brown of the National Institute of Standards and Technology —
used spectroscopic tools, including the state - of - the - art inelastic
neutron spectrometer called VISION at the Spallation Neutron Source, to examine the atomic - level dynamics of a special kind of molecular structure called a cla
neutron spectrometer called VISION at the Spallation
Neutron Source, to examine the atomic - level dynamics of a special kind of molecular structure called a cla
Neutron Source, to examine the atomic - level dynamics of a special kind of molecular structure called a clathrate.
A team from the University of Tennessee, Oak Ridge National
Laboratory, Stanford University, the University of Michigan and Forschungszentrum Jülich Institute of Energy and Climate Research has
used neutron total scattering to gain new insights into atomic disordering of complex metal oxides.